Result 1 to 20 of 133 total
Two special kinds of least squares solutions for the quaternion matrix equation AXB+CXD=E. (English)
Electron. J. Linear Algebra 23, 257-274, electronic only (2012).
1
Robust periodic steady state analysis of autonomous oscillators based on generalized eigenvalues. (English)
Michielsen, Bastiaan (ed.) et al., Scientific computing in electrical engineering SCEE 2010. Selected papers based on the presentations at the 8th conference, Toulouse, France, September 2010. Berlin: Springer (ISBN 978-3-642-22452-2/hbk; 978-3-642-22453-9/ebook). Mathematics in Industry 16, 293-302 (2012).
2
Computation of generalized inverses by using the $LDL^{\ast}$ decomposition. (English)
Appl. Math. Lett. 25, No. 3, 526-531 (2012).
3
Perturbation and expression for inner inverses in Banach spaces and its applications. (English)
Linear Algebra Appl. 436, No. 9, 3721-3735 (2012).
4
Greville’s method for preconditioning least squares problems. (English)
Adv. Comput. Math. 35, No. 2-4, 243-269 (2011).
5
On convergents infinite products and some generalized inverses of matrix sequences. (English)
Abstr. Appl. Anal. 2011, Article ID 536935, 20 p. (2011).
6
Least squares solution of the quaternion matrix equation $X-A\hat{X}B=C$ with the least norm. (English)
Linear Multilinear Algebra 59, No. 9, 985-998 (2011).
7
Effective partitioning method for computing generalized inverses and their gradients. (English)
Appl. Math. Comput. 217, No. 19, 7588-7598 (2011).
8
Some properties of the optimal preconditioner and the generalized superoptimal preconditioner. (English)
Numer. Math., Theory Methods Appl. 3, No. 4, 449-460 (2010).
9
Least squares tridiagonal Hermitian solution and tridiagonal bi-Hermitian solution of quaternion matrix equation $AXB=C$ with the least norm. (Chinese)
Numer. Math., Nanjing 32, No. 4, 353-368 (2010).
10
The inverse generalized eigenvalue problem and the optimal approximation for Hermitian-reflexive matrices. (Chinese)
J. Numer. Methods Comput. Appl. 31, No. 3, 232-240 (2010).
11
Undetermined coefficients method for solving semi-fuzzy linear systems. (English)
Adv. Appl. Math. Sci. 2, No. 2, 259-274 (2010).
12
Inexact Newton-type methods. (English)
J. Complexity 26, No. 6, 577-590 (2010).
13
A numerical construction of a natural inverse of any matrix by using the theory of reproducing kernels with the Tikhonov regularization. (English)
Far East J. Math. Educ. 4, No. 2, 141-149 (2010).
14
About the generalized $LM$-inverse and the weighted Moore-Penrose inverse. (English)
Appl. Math. Comput. 216, No. 1, 114-124 (2010).
15
Structures preserved by generalized inversion and Schur complementation. (English)
Linear Algebra Appl. 432, No. 2-3, 817-836 (2010).
16
Application of PQ-SVD Singular value decomposition to the structure of weighted Moore-Penrose inverse. (Chinese)
Ludong Univ. J., Nat. Sci. 25, No. 4, 293-295 (2009).
17
On the invertibility of the operator $A-XB$. (English)
Numer. Linear Algebra Appl. 16, No. 10, 817-831 (2009).
18
Preconditioned simultaneous displacement (PSD) method for rank deficient linear systems. (Chinese)
J. Shandong Univ., Nat. Sci. 44, No. 10, 30-35 (2009).
19
DFT calculation for the $\{2\}$-inverse of a polynomial matrix with prescribed image and kernel. (English)
Appl. Math. Comput. 215, No. 7, 2741-2749 (2009).
20
Result 1 to 20 of 133 total
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